JP2893758B2 - Optical disk drive - Google Patents

Description

The present invention relates to an optical disc device.

2. Description of the Related Art An optical disk device is a peripheral device that is rapidly developing recently as a large-capacity, convertible medium file memory device. As a form of this optical disk device,
A read-only type such as a CD-ROM, which can only read data, and a 1
Three types are used: a write-once type that can be written only once, and a rewritable type that can be rewritten as many times as a magnetic disk or a floppy disk.

In general, this type of optical disk device is constituted by a rotation driving system of an optical disk, an access and servo system of an optical head, a laser diode driver and a signal processing system serving as a light emitting source, a buffer memory, and the like.

[Problems to be Solved by the Invention] In recent years, with the advance of social information systems, and especially as communication networks and the like have become increasingly large, the emergence of highly reliable file memory devices is desired. It has become. On the other hand, along with the continuous non-stop operation for 24 hours, even in this type of optical disc device, low power consumption, and yet maintenance-free demands are strongly sought, and power interruption, especially the probability of occurrence is high. There is a demand for a device configuration having excellent reliability against instantaneous interruption.

However, in the case of the conventional optical disk device, sufficient measures have not yet been taken from the above viewpoint, and data may be lost when the power is turned off, and it takes time to recover. was there.

SUMMARY OF THE INVENTION The present invention has been made to solve such a conventional problem, and it is an object of the present invention to provide an optical disk device of this kind which has low power consumption and excellent reliability against power interruption.

Means for Solving the Problems The present invention comprises an optical disk unit, a non-volatile buffer memory, and a buffer memory control unit for controlling the buffer memory, wherein the buffer memory control unit includes an external system power supply. And a power-off detection unit for detecting the power-off, and a power-supply voltage for controlling the optical disk unit and the buffer memory connected to the power-off detection unit, and An optical power supply emergency processing unit for performing an emergency process, wherein data is written to the buffer memory and then written to the optical disk unit.

That is, the present invention uses the buffer memory of the optical disk unit, and has a power-off detection unit and a power-off emergency processing unit in its control unit. When there is no access request from the buffer memory to the optical disk unit, the rotation of the optical disk is performed. The optical head can be fixed in position and the laser emission can be stopped while maintaining the above conditions.

[Operation] In the present invention, when there is an access request to the system, data is first read from the optical disk unit, and the data is rewritten in the buffer memory. Therefore, this buffer memory functions as a so-called cache memory.

Data is written to a buffer memory and then transferred to an optical disk.

Further, at the time of power-off, the power-off detection unit detects the power-off at the power supply line input point of the system power supply, and the power-off emergency processing unit holds the power supply voltage to the buffer memory for a short time. You.

When there is no new access request to the optical disk unit, the position of the optical head is locked and the emission of the laser beam is stopped while the rotation of the optical disk is continued. And power consumption can be reduced.

[Embodiment] An embodiment of the optical disk apparatus according to the present invention will be described below in detail with reference to FIG.

FIG. 1 is a block diagram showing a schematic configuration of an optical disk apparatus to which this embodiment is applied.

In FIG. 1, an apparatus according to this embodiment includes an optical disk unit 2 added to a system control unit 1 of a system configuration to be applied, and a buffer memory control unit of a buffer memory control unit 4 for the system control unit 1. Here, a buffer memory 3 is added via a buffer memory control unit 5. The buffer memory control unit 4 is connected to an external system power supply 8 and detects a power cut-off thereof.
And a power-off emergency processing unit 7 connected to the power-off detection unit 6 for supplying a power supply voltage for controlling the optical disk 2 and the buffer memory 3 and performing an emergency process when the power is off. Is provided. When there is no access request from the buffer memory 3 to the optical disk unit 2, the position of the optical head can be fixed and the emission of laser light can be stopped while the rotation of the optical disk is continued.

Further, the buffer memory 3 is provided with a power-off detection function by a power-off detection unit 6 and a power-off emergency processing function by a power-off emergency processing unit 7, so that even when the power is off, Can also prevent data loss. That is, as a countermeasure against power loss in the case of this embodiment, by detecting power loss at a power line input point of the system power supply 8, each module is caused to hold its power supply voltage for several tens of milliseconds. The urgent processing is performed during this holding period. Normally, since a relatively large-capacity capacitor or the like is incorporated in this type of system power supply 8, it is possible to sufficiently maintain the power supply voltage for a short time when the power supply is cut off.

That is, by using the buffer memory 3 as the buffer memory of the optical disk unit 2 as described above, it is possible to improve the reliability when the power is turned off, and to stop the driving magnetic field of the buffer memory 3 when there is no access. Thus, the power consumption of the device can be reduced.

Further, when there is no access request from the buffer memory 3 to the optical disk unit 2, only the rotation of the disk is continued, and the other parts of the system are stopped, thereby further reducing power consumption. It can be planned. In this case, the reason that only the rotation of the optical disk is continued is that, after the optical disk is stopped, the optical disk is again recovered to the constant speed rotation.
This is because a time on the order of seconds is required, thereby avoiding a decrease in access response time.

Subsequently, a specific configuration of each of the main parts may be, for example, as follows.

That is, as for the disk of the optical disk unit 2, one normal 5-inch disk is used, the rotation speed is set to 2400 rpm, and the data transfer rate is set to 8 Mb / s.
The optical disk is divided into sectors each having 1024 bytes of data, and exchange of data with the buffer memory 3 is performed in units of 1024 bytes.

Further, the power holding time at the time of power-off detection is set to 40 msec, and the power-off detection alarm is generated from the switching power supply of the system power supply 8.

Therefore, in the embodiment apparatus configured as described above, when there is a request for access to the system, the system control unit 1 reads data from the optical disk unit 2 and temporarily writes the data to the buffer memory 3. From the next time, this will be read from the buffer memory 3.

The buffer memory 3 functions as a cache memory. When there is no new access request to the optical disk unit 2, the position of the optical head is locked and the emission of laser light is stopped. Peripheral circuits are also in a standby state. That is, the power consumption of the system can be reduced in this manner.

As for data writing, first, the data is written to the buffer memory 3 and then transferred to the optical disk unit 2.

Therefore, by operating as described above, in the device of this embodiment, when data is exchanged between the optical disk unit 2 and the buffer memory 3, since data is always recorded in one of the devices, In the event of a disruption, this data is not lost. Also, regarding the exchange of data between the outside and the buffer memory, since there is a margin for passing data for about 40 msec after power-off occurs and the alarm is issued, the data at this power-off Can be prevented, and thereby the reliability of the system can be improved.

[Effects of the Invention] As described in detail above, according to the present invention, a power-off detection function by a power-off detection unit and a power-off emergency processing function by a power-off emergency processing unit are provided to a buffer memory. Therefore, even when the power is turned off, data is prevented from being lost, and reliability at the time of the power cut can be improved. Further, when there is no access request from the buffer memory to the optical disk, only the rotation of the disk is continued and the other parts of the system are stopped, so that power consumption can be reduced. Has an effect.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a schematic configuration of an optical disk device to which an embodiment of the present invention is applied. DESCRIPTION OF SYMBOLS 1 ... System control unit 2 ... Optical disk unit 3 ... Buffer memory 4 ... Buffer memory control unit 5 ... Buffer memory control unit 6 ... Power-off detection unit 7 ... Power-off emergency processing unit 8 ... System power supply

──────────────────────────────────────────────────続 き Continued on front page (58) Field surveyed (Int. Cl. ⁶ , DB name) G11B 19/00

Claims (1)

(57) [Claims] An optical disk unit, a non-volatile buffer memory, and a buffer memory control unit for controlling the buffer memory, wherein the buffer memory control unit is connected to an external system power supply and has its power cut off. Power supply detecting unit for detecting the power supply, supplying a power supply voltage for controlling the optical disk unit and the buffer memory, and performing an emergency process when the power supply is cut off. An optical disc apparatus, comprising: an emergency processing unit, wherein data is written to the buffer memory after writing to the buffer memory.